杜敬涛
近期热点
资料介绍
个人简历
杜敬涛,男,1981年8月生,工学博士,动力与能源工程学院副院长。长期从事船舶动力装置振动噪声控制领域研究和教学工作,承担国家自然科学基金、基础加强计划重点项目、船用低速机创新工程、国防基础科研、高技术船舶等20余项。获国家科技进步二等奖1项,省部级奖励8项,授权和申请国家发明专利20余项,出版学术专著1部,发表学术论文90余篇,国际期刊论文40余篇。入选中组部青年拔尖人才,获霍英东青年教师基金、黑龙江省青年科技奖、黑龙江省归国留学人员报国奖等荣誉。教育经历2009.07~2011.10:美国韦恩州立大学 机械工程系 博士后2004.09~2009.06:哈尔滨工程大学 轮机工程专业 工学博士1999.09~2003.07: 哈尔滨工程大学 热能与动力工程专业 工学学士工作经历2020.12~至今:哈尔滨工程大学 动力与能源工程学院 副院长/教授/博导2019.04~2020.11:哈尔滨工程大学 动力与能源工程学院 院长助理/教授/博导2016.06~2019.03:哈尔滨工程大学 动力与能源工程学院 教授/博导2012.09~2016.05:哈尔滨工程大学 动力与能源工程学院 副教授2009.06~2012.08: 哈尔滨工程大学 动力与能源工程学院 讲师承担项目国家自然科学基金、基础加强计划重点项目、船用低速机创新工程、国防基础科研、高技术船舶等项目20余项 学术交流先后多次赴美国、法国、俄罗斯、澳大利亚、新加坡、香港等国家和地区开展学术交流与合作研究招生信息每年招收轮机工程或动力工程及工程热物理专业的硕士研究生5名,博士研究生3名。现指导博士研究生14人,硕士研究生6人,已毕业学生工作去向有:中国海洋大学、哈尔滨工程大学、大连海事大学、中国核动力研究设计院、中船集团第703研究所、第708研究所、第712研究所、第719研究所、中船动力研究院、中国船级社上海规范所、中车株洲电机所、中国商飞、中国航发等高等院校和科研院所。目前,正在与香港理工大学、法国INSA-Lyon等领域重要机构开展联合课题研究与学生培养。欢迎相关专业功底扎实、勤奋向上的优秀学子加入! 本科生授课课程轮机专业课:船舶原理船舶动力班:振动声学理论基础研究生授课课程硕士研究生:振动分析博士研究生:现代振动噪声控制技术——非线性振动实践性教学SAE发动机技术大学生创新创业实验室 指导教师2019级船舶动力创新实验班 班主任2014年、2017年轮机工程专业工厂舰队实习 指导教师 教学研究课题主持承担哈尔滨工程大学重点教改项目“船舶动力国际化人才培养模式探索与实践”专利成果授权和申请国家发明专利20余项,软件著作权7项 出版著作[1] 杜敬涛, 刘志刚, 李文龙. 复杂边界条件结构振动及其耦合声场建模分析方法. 北京: 科学出版社, 2017荣誉中组部青年拔尖人才,霍英东青年教师基金、黑龙江省青年科技奖、黑龙江省归国留学人员报国奖 奖励国家科技进步二等奖1项,国防科技进步一等奖1项,黑龙江省科技进步二等奖2项,黑龙江省技术发明二等奖1项,黑龙江省自然科学技术学术成果一等奖1项,中国海洋工程科学技术一等奖1项,黑龙江省教学成果二等奖1项,国防科技进步三等奖1项研究领域
[1] 结构声振耦合传递[2] 热声振荡燃烧噪声[3] 非线性动力学行为[4] 发动机数字化仿真""近期论文
[47] Xiaoqi Zhang, Li Cheng, Yang Liu, Jingtao Du. Acoustic modelling and analyses of geometrically complex systems with Micro-perforated panels, Journal of Sound and Vibration, 499, 2021, 115995[46] Yang Liu, Jingtao Du, Li Cheng. Bandgap formation under temperature-induced quasi-periodicity in an acoustic duct with flexible walls, Journal of Sound and Vibration, 486, 2020, 115615[45] Jingtao Du, Qi Chen. Design of distributed piezoelectric modal sensor for a rotating beam with elastic boundary restraints, Journal of Vibration and Control, 26(23-24), 2020, 2340-2354[44] Xue Xing, Qi Xu, Jingtao Du, Li Cheng, Zhigang Liu. A modified Fourier series solution for a thermo-acoustic tube with arbitrary impedance boundaries, International Journal of Applied Mechanics, 12(5), 2020, 2050047-1-24[43] Yang Liu, Jingtao Du, Li Cheng. Radiation modes and sound radiation from a flexible structure mounted in a duct, Journal of the Acoustical Society of America, 147(5), 2020, 3465–3475[42] Deshui Xu, Jingtao Du, Yuhao Zhao. Flexural vibration and power flow analyses of axially loaded beams with general boundary and non-uniform elastic foundations, Advances in Mechanical Engineering, 12(5), 2020, 1-14[41] Yang Liu, Jingtao Du. Bandgap characteristics of a duct embedded with multiple membrane-cavity resonators in the presence of mean flow, International Journal of Mechanical Sciences, 169, 2020, 105330[40] Peng Lyu, Jingtao Du, Zhigang Liu. A semianalytical solution for in-plane vibration analysis of annular panels with arbitrary distribution of internal point constraints, Mathematical Problems in Engineering, 7269809, 2020, 1-10[39] Qi Chen, Jingtao Du. A Fourier series solution for the transverse vibration of rotating beams with elastic boundary supports, Applied Acoustics, 155, 2019, 1-15[38] Yang Liu, Jingtao Du. Acoustic bandgap characteristics of a duct with a cavity-backed and strip mass-attached membrane array mounted periodically, Journal of Physics D: Applied Physics, 52, 2019, 325501 1-9[37] Yufei Zhang, Jingtao Du, Yang Liu. Structural-acoustic modeling and analysis for a flexible partition panel in three-dimensional acoustic cavity, Journal of Vibration Engineering & Technologies, 7, 2019, 335-345[36] Deshui Xu, Jingtao Du, Zhigang Liu. An accurate and efficient series solution for the longitudinal vibration of elastically restrained rods with arbitrarily variable cross sections, Journal of Low Frequency Noise, Vibration and Active Control, 38(2), 2019, 403-414[35] Peng Lyu, Jingtao Du, Yuhang Wang, Zhigang Liu. Free in-plane vibration analysis of rotating annular panels with elastic boundary restraints, Journal of Sound and Vibration 439, 2019, 434-456[34] Kai Yang, Fei Fei, Jingtao Du. Investigation of the lever mechanism for bistable nonlinear energy harvesting under Gaussian-type stochastic excitations, Journal of Physics D: Applied Physics, 52, 2019, 055501 1-12[33] Deshui Xu, Jingtao Du, Yuhao Zhao. Longitudinal Vibration Analysis of Elastically Coupled Nanorods System with General Boundary Supports, Sound and Vibration, 53(2), 2019, 16-28[32] Jingtao Du, Ximing Chen, Long Liu, Dai Liu, Xiuzhen Ma. Mechanism of Combustion Noise Influenced by Pilot Injection in PPCI Diesel Engines, Applied Science, 9, 2019, 1875 1-14[31] Qi Chen, Jingtao Du. Polyvinylidene fluoride modal sensor design for elastically restrained beams resting on general non-uniform foundation, Journal of Intelligent Material Systems and Structures, 30, 2019, 1569-1584[30] Yuhang Wang, Jingtao Du, Li Cheng. Power flow and structural intensity analyses of Acoustic Black Hole beams, Mechanical Systems and Signal Processing, 131, 2019, 538-553[29] Yang Liu, Jingtao Du. Sound attenuation analysis and optimal design for a duct with periodic membranes embedded in its sidewalls, Journal of Applied Physics, 125, 2019, 034901 1-11[28] Yang Liu, Jingtao Du. Vibroacoustic characteristics and sound attenuation analyses of a duct–membrane system coupled with strip masses, Journal of Vibration and Control, 25, 2019, 2910-2920[27] Yang Liu, Jingtao Du, Li Cheng. Analytical coupled vibro-acoustic modeling of a cavity-backed duct-membrane system with uniform mean flow, Journal of the Acoustical Society of America, 144(3), 2018, 1368-1380[26] Lujun Chen, Deshui Xu, Jingtao Du, Chengwen Zhong. Flexural Vibration Analysis of Nonuniform Double-Beam System with General Boundary and Coupling Conditions, Shock and Vibration, 5103174, 2018, 1-8[25] Yang Liu, Jingtao Du. Structural-acoustic interaction of a three-dimensional panel–cavity–duct system with non-uniform boundary restraints, Journal of Fluids and Structures, 79, 2018, 94–114[24] Jingtao Du, Yang Liu, Yuhang Wang, Gang Wang. Vibro-acoustic analysis of an elastically restrained plate duct silencer backed by irregular acoustical cavity, Applied Acoustics, 138, 2018, 60-71[23] Yang Liu, Jingtao Du. Coupling effects of boundary restraining stiffness and tension force on sound attenuation of a cavity-backed membrane duct silencer, Applied Acoustics, 117, 2017, 150-159[22] Peng Lyu, Jingtao Du, Zhigang Liu, Peng Zhang. Free in-plane vibration analysis of elastically restrained annular panels made of functionally graded material, Composite Structures, 178, 2017, 246-259[21] Jingtao Du, Yang Liu, Yufei Zhang. Influence of boundary restraint on sound attenuation performance of a duct-membrane silencer, Applied Acoustics, 105, 2016, 156-163[20] Deshui Xu, Jingtao Du, Zhigang Liu. Longitudinal vibration analysis of nonlocal nanorods with elastic end restraints by an improved Fourier series method, Noise Control Engineering Journal, 64, 2016, 766-778[19] Gang Wang, Wen L. Li, Jingtao Du, Wanyou Li. Prediction of break-out sound from a rectangular cavity via an elastically mounted panel, Journal of the Acoustical Society of America, 139, 2016, 684–692[18] Shiliang Jiang, Wen L. Li, Tiejun Yang, Jingtao Du. Free vibration analysis of doubly curved shallow shells reinforced by any number of beams with arbitrary lengths, Journal of Vibration and Control, 22(2), 2016, 570–584[17] Wanyou Li, Gang Wang, Jingtao Du. Vibration Analysis of Conical Shells by the Improved Fourier Expansion-Based Differential Quadrature Method, Shock and Vibration, 9617957, 2016, 1-10[16] Yanbo He, Jingtao Du. Bandgap structure analysis of phononic crystal rods with hybrid shunted piezoelectric patches, Chinese Journal of Acoustics, 34, 2015, 357-372[15] Yufei Zhang, Jingtao Du, Tiejun Yang, Zhigang Liu. Free and forced in-plane vibration of rectangular plates with non-uniform elastic boundary conditions, Noise Control Engineering Journal, 63, 2015, 508-521[14] Wanyou Li, Binglin Lv, Huajiang Ouyang, Jingtao Du. A Hybrid Finite Element-Fourier Spectral Method for Vibration Analysis of Structures with Elastic Boundary Conditions, Mathematical Problems in Engineering, 834834, 2014, 1-11[13] Yufei Zhang, Jingtao Du, Tiejun Yang, Zhigang Liu. A series solution for the in-plane vibration analysis of orthotropic rectangular plates with elastically restrained edges, International Journal of Mechanical Sciences 79, 2014, 15-24[12] Hongan Xu, W. L. Li, Jingtao Du. Modal Analysis of General Plate Structures, Journal of Vibration and Acoustics, 136, 2014, 021002 1-11[11] Lu Dai, Tiejun Yang, Jingtao Du, W.L. Li, M.J. Brennan. An exact series solution for the vibration analysis of cylindrical shells with arbitrary boundary conditions, Applied Acoustics, 74, 2013, 440–449[10] Shiliang Jiang, Tiejun Yang, W. L. Li, Jingtao Du. Vibration Analysis of Doubly Curved Shallow Shells with Elastic Edge Restraints, Journal of Vibration and Acoustics, 135, 2013, 034502 1-4[9] Yuehua Chen, Guoyong Jin, Minggang Zhu, Zhigang Liu, Jingtao Du, Wen L. Li. Vibration behaviors of a box-type structure built up by plates and energy transmission through the structure, Journal of Sound and Vibration, 331, 2012, 849-867[8] Lu Dai, Tiejun Yang, W. L. Li, Jingtao Du, Guoyong Jin. Dynamic Analysis of Circular Cylindrical Shells with General Boundary Conditions Using Modified Fourier Series Method, Journal of Vibration and Acoustics, 134, 2012, 041004 1-12[7] Yuehua Chen, Guoyong Jin, Jingtao Du, Zhigang Liu. Vibration characteristics and power transmission of coupled rectangular plates with elastic coupling edge and boundary restraints, Chinese Journal of Mechanical Engineering, 25(2), 2012, 262-276[6] Jingtao Du, Wen L. Li, Hong A. Xu, Zhi G. Liu. Vibro-acoustic analysis of a rectangular cavity bounded by a flexible panel with elastically restrained edges, Journal of the Acoustical Society of America, 131, 2012, 2799–2810[5] Jingtao Du, Wen L. Li, Zhigang Liu, Hongan Xu, Zhenlin Ji. Acoustic analysis of a rectangular cavity with general impedance boundary conditions, Journal of the Acoustical Society of America, 130, 2011, 807-817[4] Jingtao Du, Wen L. Li, Zhigang Liu, Tiejun Yang, Guoyong Jin. Free vibration of two elastically coupled rectangular plates with uniform elastic boundary restraints, Journal of Sound and Vibration, 330, 2011, 788-804[3] Jingtao Du, Zhigang Liu, Wen L. Li, Xuefeng Zhang, Wanyou Li. Free in-plane vibration analysis of rectangular plates with elastically point-supported edges, ASME Journal of Vibration and Acoustics, 132, 2010, 031002-1-11[2] Wen L. Li, Xufeng Zhang, Jingtao Du, Zhigang Liu. An exact series solution for the transverse vibration of rectangular plates with general elastic boundary supports, Journal of Sound and Vibration, 321, 2009, 254-269[1] Jingtao Du, Wen L. Li, Guoyong Jin, Tiejun Yang, Zhigang Liu. An analytical method for the in-plane vibration analysis of rectangular plates with elastically restrained edges, Journal of Sound and Vibration, 306, 2007, 908-927[1] 评审编辑:Journal of the Acoustical Society of America、Journal of Sound and Vibration、Applied Energy、Applied Acoustics、Journal of Mechanical Engineering Science、Composite Structures、Journal of Vibration and Control、Shock and Vibration、Noise Control Engineering Journal、Journal of Low Frequency Noise, Vibration and Active control、Meccanica、Earthquake Engineering and Engineering Vibraiton、声学学报、振动工程学报、振动与冲击、上海交通大学学报、应用力学学报等30个学术期刊审稿人,Conference paper reviewer for International Congress of Sound and Vibration;教育部学位与研究生教育评估中心博士论文抽检与学位论文通讯评议专家、全军优秀博士硕士学位论文评选通信评议专家;Sound & Vibration期刊编委,International Journal of Acoustics and Vibration学术期刊Associate Editor,哈尔滨工程大学学报编委[2] 项目基金:国家自然基金委通讯评审专家、两机专项评审专家、黑龙江省自然科学基金评审专家、陆航预研专家、黑龙江省博士后基金评审专家、热能动力技术重点实验室开放基金评审专家[3] 学会会议:中国内燃机学会大功率柴油机分会振动与噪声专业学组秘书,中国动力工程学会第七届青年学术会议组委会成员,装备振动与噪声控制青年论坛组委会成员,国际声学与振动学会会员、美国机械工程师协会会员、美国声学学会会员、英国海事工程、科学与技术学会会员[4] 社会服务:欧美同学会(中国留学人员联谊会)留美国分会理事、哈尔滨工程大学青年科技协会副会长、黑龙江省侨联青年委员会委员、黑龙江省青年科技工作者协会科技制造界别委员、科技部科技领军人才创新驱动中心(镇江)首批特邀专家 相关热点